公开(公告)号：US20160311037A1

公开(公告)日：2016-10-27

申请号：US15135725

申请日：2016-04-22

申请人： Heule Werkzeug AG

发明人： Harry Studer

IPC分类号： B23B51/08 ,  B23B51/02 ,  B23B51/10

CPC分类号： B23B51/08 ,  B23B51/02 ,  B23B51/102 ,  B23B51/105 ,  B23B51/108 ,  B23B2220/04 ,  B23B2222/28 ,  B23B2251/02 ,  B23B2251/426 ,  B23B2251/50 ,  Y10T408/8583

摘要： A combined drill and chamfer tool (13, 21) for producing boreholes (29) in a workpiece (28) and for subsequently producing a chamfer (30) on at least one bore edge of the borehole (29), comprising a drill bit (1), which is secured in a rotationally fixed manner in a base body (3), and at least one chamfering blade (4) arranged behind the drill bit (1) in the axial direction, said chamfering blade being mounted in a blade window (25) arranged in the drill shank (35) and spring-loaded so as to be displaceable transversely to the longitudinal axis of the combined tool (13, 21), wherein the drill body (13) comprising the drill bit (1) and the drill shank (35) is made of a solid hard metal material, and wherein a spring-loaded, displaceable control bolt (5) is located in a central longitudinal bore (36) of the solid hard metal drill, the front tip (15) of said bolt controlling the transverse displacement of the chamfering blade (4), which is transversely displaceable within the blade window (25).

摘要翻译： 一种用于在工件（28）中产生钻孔（29）并用于随后在所述钻孔（29）的至少一个钻孔边缘上产生倒角（30）的组合钻和倒角工具（13,21），包括钻头 1），其以旋转固定的方式固定在基体（3）中;以及至少一个倒角刀片（4），其布置在所述钻头（1）的轴向方向上，所述倒角刀片安装在刀片窗口 （25），其布置在所述钻柄（35）中并且被弹簧加载以能够横向于所述组合工具（13,21）的纵向轴线移动，其中所述钻体（13）包括所述钻头（1）和 钻杆（35）由固体硬金属材料制成，并且其中弹簧加载的可移位的控制螺栓（5）位于固体硬金属钻头的中心纵向孔（36）中，前端（15） ），所述螺栓控制倒角刀片（4）的横向位移，其在刀片窗口内可横向移位 （25）。

公开(公告)号：US09426902B2

公开(公告)日：2016-08-23

申请号：US14081569

申请日：2013-11-15

申请人： Huawei Technologies Co., Ltd.

发明人： Shandang Liu

IPC分类号： H05K3/04 ,  H05K3/42 ,  B23B49/00 ,  B23B35/00 ,  B23B41/14 ,  H05K3/00

CPC分类号： H05K3/42 ,  B23B35/00 ,  B23B41/14 ,  B23B49/00 ,  B23B2226/27 ,  B23B2251/426 ,  H05K3/0047 ,  H05K2203/0207 ,  H05K2203/1476 ,  H05K2203/1572 ,  Y10T408/03 ,  Y10T408/05

摘要： The present invention relates to a method for drilling a printed circuit board, comprising: drilling down in an initial position, and when contacting a live superficial conductive layer of a PCB, acquiring a first conductive position and acquiring a first height difference between the initial position and the first conductive position; drilling onward after the first drill bit of the driller drills through the superficial conductive layer and when contacting another conductive layer of the PCB, acquiring a second conductive position and acquiring a second height difference between the initial position and the second conductive position; calculating a difference between the second and the first height difference to obtain a third height difference; and performing back-drilling, according to the third height difference, in a position that needs back-drilling. The present invention acquires precise depth information through a test blind via and reduces Stub length of back-drilling.

摘要翻译： 本发明涉及一种用于钻孔印刷电路板的方法，包括：在初始位置向下钻取，并且当接触PCB的活的表面导电层时，获取第一导电位置并获取初始位置之间的第一高度差 和第一导电位置; 在钻头的第一钻头穿过表面导电层之后并且当接触PCB的另一导电层时，向后钻孔，获取第二导电位置并获取初始位置和第二导电位置之间的第二高度差; 计算第二高度差和第一高度差之间的差以获得第三高度差; 并且根据第三高差来执行需要回钻的位置的回钻。 本发明通过测试盲孔获取精确的深度信息，并且减少了后钻的桩长度。

公开(公告)号：US09296086B2

公开(公告)日：2016-03-29

申请号：US14254652

申请日：2014-04-16

申请人： National Taiwan Ocean University

发明人： Wen-Tung Chang ,  Yu-Yun Lu

IPC分类号： B24B49/12 ,  G06T7/00 ,  B24B3/24 ,  B24B19/00

CPC分类号： B24B49/12 ,  B23B2251/426 ,  B24B3/24 ,  B24B19/00 ,  G06T7/0004 ,  G06T2207/30164

摘要： An improved destructive and visual measurement automation system and a method for measuring a web thickness of a microdrill are provided. When a dual-axis motion platform module moves the microdrill to a first position, a reflection module reflects a first image in a first direction toward a second direction. A vision module receives the reflected first image in the second direction and outputs the received first image to a computer. According to the first image, the computer performs a positioning procedure and a grinding procedure to drive a drill grinding module to grind the microdrill to a sectional position to be measured of the microdrill. When the microdrill is moved to a second position, the vision module outputs a second image to the computer. According to the second image, the computer performs an image computing procedure to obtain the web thickness at the sectional position to be measured.

摘要翻译： 提供了改进的破坏性和视觉测量自动化系统以及用于测量微型钻头的腹板厚度的方法。 当双轴运动平台模块将微型钻具移动到第一位置时，反射模块朝向第二方向的第一方向反射第一图像。 视觉模块以第二方向接收反射的第一图像，并将接收到的第一图像输出到计算机。 根据第一图像，计算机执行定位过程和磨削过程以驱动钻削研磨模块将微型钻头研磨到要测量的微型钻孔的截面位置。 当微型钻具移动到第二位置时，视觉模块将第二图像输出到计算机。 根据第二图像，计算机执行图像计算程序以在待测量的截面位置获得卷材厚度。

公开(公告)号：US20150298219A1

公开(公告)日：2015-10-22

申请号：US14448273

申请日：2014-07-31

申请人： TCT GLOBAL LIMITED

发明人： Shih-Feng CHIU ,  Nick Sung-Hao CHIEN ,  Feng-Yu LIN ,  Ming-Yuan ZHAO

IPC分类号： B23B51/02

CPC分类号： B23B51/02 ,  B23B2251/406 ,  B23B2251/426 ,  Y10T408/9097

摘要： The present invention relates to a drill bit structure which comprises a body. The body has a free end, an intermediate section and a connection end. The body comprises a first groove portion, a second groove portion, a third groove portion, a fourth groove portion and a fifth groove portion. The first groove portion is partially overlapped with the third groove portion from the free end. The second groove portion is partially overlapped with the fourth groove portion from the free end. After extending a preset axial distance from the free end, the first groove portion and the second groove portion are partially overlapped with each other by forming an intersecting protrusion. The fifth groove portion is extended from the intermediate section toward the connection end. The first, second, third and fourth groove portions are extended to the fifth groove portion.

摘要翻译： 本发明涉及一种包括主体的钻头结构。 主体有自由端，中间部分和连接端。 主体包括第一凹槽部分，第二凹槽部分，第三凹槽部分，第四凹槽部分和第五凹槽部分。 第一槽部分与自由端的第三槽部分重叠。 第二槽部从自由端部与第四槽部重叠。 在从自由端延伸预设的轴向距离之后，通过形成交叉突起，第一槽部分和第二槽部分彼此部分重叠。 第五槽部从中间部向连接端延伸。 第一，第二，第三和第四槽部分延伸到第五槽部分。

公开(公告)号：US20150209874A1

公开(公告)日：2015-07-30

申请号：US14389765

申请日：2014-07-17

申请人： SHENZHEN JINZHOU PRECISION TECHNOLOGY CORP.

发明人： Qiang Guo ,  Lianyu Fu

IPC分类号： B23B51/02 ,  H05K3/00

CPC分类号： B23B51/02 ,  B23B2251/043 ,  B23B2251/406 ,  B23B2251/408 ,  B23B2251/426 ,  H05K3/0047 ,  Y10T408/9097

摘要： The present invention relates to the field of manufacture of miniature drills and discloses a miniature drill, which includes a drill body, a drill tip formed at one end of the drill body, and a plurality of spiral chip slots spiraling on a surface of the drill body; the chip slots include a long chip slot, a short chip slot, and a communicating chip slot, the long chip slot and the short chip slot are arranged at intervals and have the same helix angles, and the long chip slot is communicated with the short chip slot by the communicating slot. In the miniature drill provided by the present invention, the long chip slot and the short chip slot that have the same helix angle and do not intersect are communicated with each other by the communicating slot, which effectively avoids swing of the drill tip caused by deviation of the centroid from the rotation axis and affecting the position accuracy of the drilled holes; moreover, the communicating slot broadens the widths of the chip slots, increases the chip space, and thereby improves the heat dissipating property; furthermore, the communicating slot reduces the width of the body clearance and reduces heat generated by friction between the body clearance and walls of the drilled holes, which enhances the ability of resisting breaks caused by the thermal deformation of the miniature drill.

摘要翻译： 本发明涉及微型钻头的制造领域，并且公开了一种微型钻头，其包括钻体，在钻体的一端形成的钻头，以及在钻头的表面上螺旋形的多个螺旋切屑槽 身体; 芯片槽包括长芯片槽，短芯片槽和通信芯片槽，长芯片槽和短芯片槽间隔布置并具有相同的螺旋角，并且长芯片槽与短路 芯片槽由通信槽。 在本发明提供的微型钻头中，具有相同螺旋角并且不相交的长芯片槽和短芯片槽通过连通槽彼此连通，这有效地避免了由于偏差引起的钻头的摆动 的重心从旋转轴线并影响钻孔的位置精度; 此外，通信槽扩大了芯片槽的宽度，增加了芯片空间，从而提高了散热性能; 此外，连通槽减小了主体间隙的宽度，并且减少了主体间隙和钻孔的壁之间的摩擦所产生的热量，这增强了由微型钻头的热变形引起的抵抗断裂的能力。

公开(公告)号：US20140093321A1

公开(公告)日：2014-04-03

申请号：US14081569

申请日：2013-11-15

申请人： Huawei Technologies Co., Ltd.

发明人： Shandang Liu

IPC分类号： H05K3/42 ,  B23B49/00

CPC分类号： H05K3/42 ,  B23B35/00 ,  B23B41/14 ,  B23B49/00 ,  B23B2226/27 ,  B23B2251/426 ,  H05K3/0047 ,  H05K2203/0207 ,  H05K2203/1476 ,  H05K2203/1572 ,  Y10T408/03 ,  Y10T408/05

摘要： The present invention relates to a method for drilling a printed circuit board, comprising: drilling down in an initial position, and when contacting a live superficial conductive layer of a PCB, acquiring a first conductive position and acquiring a first height difference between the initial position and the first conductive position; drilling onward after the first drill bit of the driller drills through the superficial conductive layer and when contacting another conductive layer of the PCB, acquiring a second conductive position and acquiring a second height difference between the initial position and the second conductive position; calculating a difference between the second and the first height difference to obtain a third height difference; and performing back-drilling, according to the third height difference, in a position that needs back-drilling. The present invention acquires precise depth information through a test blind via and reduces Stub length of back-drilling.

摘要翻译： 本发明涉及一种用于钻孔印刷电路板的方法，包括：在初始位置向下钻取，并且当接触PCB的活的表面导电层时，获取第一导电位置并获取初始位置之间的第一高度差 和第一导电位置; 在钻头的第一钻头穿过表面导电层之后并且当接触PCB的另一导电层时，向后钻孔，获取第二导电位置并获取初始位置和第二导电位置之间的第二高度差; 计算第二高度差和第一高度差之间的差以获得第三高度差; 并且根据第三高差来执行需要回钻的位置的回钻。 本发明通过测试盲孔获取精确的深度信息，并且减少了后钻的桩长度。

公开(公告)号：US20130170920A1

公开(公告)日：2013-07-04

申请号：US13821841

申请日：2012-01-31

申请人： Hiroshi Ogawa

发明人： Hiroshi Ogawa

IPC分类号： B23B51/02

CPC分类号： B23B51/02 ,  B23B2251/406 ,  B23B2251/426 ,  B23B2251/44 ,  Y10T408/03 ,  Y10T408/9097

摘要： A drill according to an embodiment of the present invention includes a body part and a cutting part with a cylinder-like shape. The cutting part includes two cutting edges located separately from each other at a front end portion of the cutting part, two flutes which are continuous with each of the two cutting edges and extend spirally toward a rear end portion of the cutting part, and a clearance which extends spirally from a side of the front end portion to a side of the rear end portion, and is recessed inward in reference to a periphery of the cutting part in a sectional view. The cutting part includes a first joining flute including at least one of the two flutes and the clearance being joined together. The first joining flute includes a bottom surface being outwardly protruding curve-like line in a sectional view. A method of manufacturing a machined product using the drill is also provided.

摘要翻译： 根据本发明的实施例的钻头包括主体部分和具有圆柱形形状的切割部分。 切割部分包括在切割部分的前端部处彼此分开设置的两个切割刃，两个与两个切割刃中的每一个连续的凹槽，并且朝向切割部分的后端部螺旋地延伸，并且间隙 其从前端部的一侧螺旋地延伸到后端部的一侧，并且在截面图中相对于切割部的周边向内凹入。 切割部分包括第一连接凹槽，其包括两个凹槽中的至少一个，并且间隙连接在一起。 第一连接槽具有在剖面图中向外突出的曲线状的底面。 还提供了使用钻头制造加工产品的方法。

公开(公告)号：US20090257839A1

公开(公告)日：2009-10-15

申请号：US12266910

申请日：2008-11-07

申请人： YU-HSUEH LIN

发明人： YU-HSUEH LIN

IPC分类号： B23B51/02 ,  B05D3/02 ,  C23C16/02 ,  C23C16/513

CPC分类号： B23B51/02 ,  B23B2226/315 ,  B23B2228/10 ,  B23B2251/426 ,  C23C16/0245 ,  C23C16/0272 ,  C23C16/26 ,  H05K3/0047 ,  Y10T408/89

摘要： A method for film-coating drill bits comprises the steps of: providing a core drill bit; cleaning and further heating the core drill bit; forming an adherent film on the core drill bit; forming a mixing film on the adherent film; and forming a non-crystalline diamond-like film on the mixing film. The finish film-coated drill bit comprises an inner adherence film, a middle mixing film and an outer non-crystalline diamond-like carbon (DLC) film. The mixing film is composed of a non-crystalline diamond-like material and compositions of the adherence film. In the mixing film, the composition of the non-crystalline diamond-like material is higher in a position close to the DLC film.

摘要翻译： 一种用于涂覆钻头的方法包括以下步骤：提供钻芯钻头; 清理并进一步加热芯钻头; 在芯钻头上形成粘附膜; 在粘附膜上形成混合膜; 并在混合膜上形成非结晶的菱形膜。 最终涂膜钻头包括内部粘附膜，中间混合膜和外部非结晶类金刚石碳（DLC）膜。 混合膜由非结晶金刚石材料和附着膜的组合物组成。 在混合膜中，非晶态金刚石材料的组成在接近DLC膜的位置较高。

公开(公告)号：US06517411B2

公开(公告)日：2003-02-11

申请号：US09804169

申请日：2001-03-12

申请人： Paul D Mortell ,  Chi Hoang ,  David M. McElrone ,  Gary P. Erpenbeck ,  Walter James Frandsen, Jr. ,  Charles Shafee Slemon

发明人： Paul D Mortell ,  Chi Hoang ,  David M. McElrone ,  Gary P. Erpenbeck ,  Walter James Frandsen, Jr. ,  Charles Shafee Slemon

IPC分类号： B24B4900

CPC分类号： B23Q17/0938 ,  B23B51/02 ,  B23B2251/14 ,  B23B2251/426 ,  B23Q3/15546 ,  B23Q17/2233 ,  B23Q17/24 ,  B24B3/24 ,  B24B3/247 ,  B24B3/26 ,  B24B3/28 ,  B24B41/005 ,  B24B49/12 ,  B24B51/00 ,  G05B19/00 ,  G05B19/182 ,  G05B2219/37559 ,  G05B2219/45159 ,  H05K3/0047

摘要： A completely automated apparatus for verifying the identity and geometry of drill bits, re-sharpening the cutting tip of a drill bit and re-positioning a locating ring upon the shank portion of the drill bit subsequent to the re-sharpening of the cutting tip thereof. The apparatus comprises a housing having a pair of cassette trays, a pair of grinding assemblies, a pair of optical assemblies, a pair of primary cleaning assemblies, a pair of secondary cleaning assemblies, a pair of inversion assemblies, a pair of workhead assemblies, a bumping assembly, and a loader assembly attached thereto. The workhead and loader assemblies are used to transport drill bits between the cassette trays and other assemblies in a selected sequence which is controlled and coordinated by a programmable control device. The control device is electrically interfaced to each of the assemblies and allows the cutting tip re-sharpening and locating ring re-positioning processes to be conducted simultaneously on at least two drill bits.

公开(公告)号：US20010002559A1

公开(公告)日：2001-06-07

申请号：US09774050

申请日：2001-01-31

申请人： MITSUBISHI MATERIALS CORPORATION

发明人： Yasuyoshi Fujii ,  Seiji Matsuura ,  Kazuhiro Kaneko

IPC分类号： B21K005/04

CPC分类号： B23B31/005 ,  B23B51/00 ,  B23B51/02 ,  B23B2231/0204 ,  B23B2240/28 ,  B23B2251/02 ,  B23B2251/426 ,  B23P15/32 ,  Y10T29/49833 ,  Y10T29/49945 ,  Y10T403/4949 ,  Y10T403/4966 ,  Y10T408/907

摘要： A method for producing cutting tools incorporated in the present invention is carried out as follows: a shank portion and a drill portion are formed separately such that the inner diameter of a hole made in the shank portion is slightly smaller than the outer diameter of the drill portion. The rear of the drill portion is forcibly inserted into the hole of the shank portion at normal temperature which is room temperature. The diameter of the inner wall of the hole is thereby enlarged, resulting in a tight fitting. After the insertion of the drill portion in the shank portion, the drill portion may be ground to form a drill edge. Before the insertion of the drill portion in the shank portion, the shank portion may be quenched under vacuum or the like, or the surface of the shank portion may be hardened by nitriding.